SU1118405A1 - Arrangement for regulating reactor operation - Google Patents

Abstract

A DEVICE FOR REGULATING THE OPERATION OF THE REACTOR, containing a temperature sensor in the reactor, connected to a proportional-differential controller connected to a functional converter, a temperature sensor in the jacket of the reactor connected to a proportional-integral controller, coolant supply and heat carrier valves, and often, in order to reduce energy consumption and improve product quality by improving the quality of temperature control in the reactor, it additionally contains a threshold and switch-off relays, while the functional converter is connected to the chamber for setting the proportional-integral controller, the outputs of which are connected via the switching-off relays to the coolant and coolant supply valves, the inputs to the threshold relay connected to the control inputs of the switching relays

Description

00 4 The invention relates to the automatic regulation of parameters of industrial technological processes and can be applied in the chemical, petrochemical and other fields; industry national households. There is a known method of automatically controlling the operation of reactors by adjusting the ratio of the flow rates of components with correction for the mixture temperature at the reactor outlet and the refrigerant flow rate depending on the temperature difference of the mixture at the outlet of their refrigerant reactor and at the inlet of reactor ij. However, this method does not provide high accuracy in maintaining the temperature of the reaction mixture in the reactor and the required quality of its regulation. The closest to the invention in its technical essence is a device for regulating the operation of a reactor, comprising a temperature sensor in a reactor, connected to a proportional-differential controller connected to a functional converter, a temperature sensor in a jacket of a reactor connected to a proportional-integral controller torus, valves, coolant supply and heat carrier body 2. This device is characterized with increased energy consumption in connection with the simultaneous use of heat carrier and coolant to control the temperature in the reactor, mediocre accuracy and quality of temperature control in the reactor and the product produced. The aim of the invention is to reduce energy consumption and improve the quality of the product produced by improving the quality of temperature control in the reactor. The goal is achieved by the fact that a device for regulating the operation of a reactor, containing a temperature sensor in the reactor, is connected to a proportional-differential controller connected to a functional converter, a temperature sensor in the reactor jacket connected to a proportional-integral controller, coolant supply valves and coolant, additionally contains a threshold and off relay, while the functional converter is connected with the chamber of the task proportional-integral control The torus, the outputs of which are connected through the switching-off relays to the supply valves of the heat carrier and the coolant, the inputs of the threshold relay are connected in parallel to the inputs of the proportional-integral regulator, and the output of the threshold relay is connected to the control inputs of the switching-off relays. The drawing shows a device for regulating the operating reactor. The device contains a reactor 1, a mixer 2, valves 3 and 4 on the coolant and heat carrier lines, temperature sensors 5 and 6, which are respectively connected to the proportional-differential and proportional-integral regulators 7 and 8, the functional converter 9, intended to convert the output of the regulator 7 to the absolute value of the sum of the deviation of the controlled parameter from the reference and its derivative or proportional to its value. The output of the sensor 5 is connected to the input of the threshold relay 10, the output of which is connected to the control inputs of the relays 11 and 12, the output of the regulator 7 through the functional converter 9 is connected to the reference input of the regulator 8, the output of which through the switching off relays 11 and 12 are connected to the actuators of valves 3 and 4, the free inputs of the switching relays PI 12 are connected to signal sources, the closing valves 3 and 4, and the input of the regulating chamber 7 and the threshold relay 10 are connected to the source of the reference signal. The device works as follows. If the temperature in the reactor is higher than the reference, the discrete output signal of the threshold relay 10 switches the relays 1 and 12 so that the actuator; valve 3 switches to the output of the regulator 8, and valve 4 to the signal source that closes it. The task for the coolant flow is formed by the temperature in the reactor and its speed in the proportional-differential controller 7, and through the functional transmitter 9 is fed to the input of the camera of the proportional-integral controller 8. Thus, the change in coolant flow is carried out according to the temperatures in the reactor and his shirt

When the temperature drops below the setpoint, the output signal of the threshold relay 10 is reversed, and the switching-off relays, П and 12 switch in such a way that the actuator of the valve 4 is switched to the output of the regulator 8, and the valve is the 3rd source of the signal closing it. The formation of the task is carried out in the same way as described, and a change in the flow rate of the coolant according to the temperatures in the reactor and its jacket occurs.

When the temperature in the reactor strains to the task, the flow rate

into the jacket of the reactor eyer onositel

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decreases as the temperature difference in the reactor decreases with the task, and its temperature also approaches the task. In equilibrium mode, when the temperature in the reactor corresponds to the task, the flow rate of the energy carrier supplied to the jacket of the reactor is such that it compensates for the disturbing effect.

The invention minimizes energy consumption with high accuracy and quality of temperature control in the reactor, which ultimately improves the quality of products.

Claims (1)

DEVICE FOR ADJUSTMENT - REACTOR OPERATION WORK, containing a temperature sensor in the reactor connected to a proportional-differential controller connected to a functional converter, a temperature sensor in the reactor jacket connected to a proportional-integral controller, coolant supply valves * coolant, and cooler with the fact that, in order to reduce energy consumption and improve the quality of the product by improving the quality of temperature regulation in the reactor, it additionally contains a threshold and an off relay, while the function tional proebrazovatel associated with a camera reference proportional-integral regulator, which outputs are connected via relay switching-off valves with a coolant supply and coolant, threshold relays the inputs are connected parallel to the inputs of a proportional-integral controller and threshold switch output is connected to control inputs of the relay tripping SU ..., 1118405> 1 1118405 2